Ground Control Point-Free Unmanned Aerial Vehicle-Based Photogrammetry for Volume Estimation of Stockpiles Carried on Barges

He, Hangen; Chen, Ting; Zeng, Huaien; Huang, Shongming

doi:10.3390/s19163534

Cited by 28 publications

(28 citation statements)

References 22 publications

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“…First, aerial photography was used to obtain oblique photography images [28]. The flight route and altitude of unmanned aerial vehicles (UAV) were planned, the aerial photography area was delineated, and then the UAV was equipped with a digital oblique camera, and stereo images were then extracted from the UAV videos for aerial triangulation [29]. Next, 3D models were constructed by creating point clouds, constructing irregular triangulations, and performing texture mapping.…”

Section: Digitalization Technologiesmentioning

confidence: 99%

Joint development of cultural heritage protection and tourism: the case of Mount Lushan cultural landscape heritage site

et al. 2021

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The joint development of cultural heritage protection and tourism is an essential part of sustainable heritage tourism. Mount Lushan in China is such a site which in the past has had shortcomings in heritage protection and heritage tourism marketing. The present research addresses this issue by using digital technologies such as oblique aerial photography, 3D laser scanning technology, and 360 degrees panorama technology to digitize the Mount Lushan cultural landscape heritage site, integrating all elements to create a virtual tourism subsystem. It provides users with a virtual experience of cultural landscape heritage tourism and promotes cultural landscape tourism marketing. In addition, tourist flow and environmental subsystems were built through the integration of Internet of Things (IoT) technology and analytical models. The tourist flow subsystem can help managers to regulate tourist flow according to the tourist carrying capacity threshold. Managers can also conduct environmental health assessment and management through the "pressure-state-response" model provided by the environmental subsystem. Finally, a comprehensive platform was developed based on the system concept, which integrated the three subsystems and their functions, and developed different versions to provide a visual platform for tourists and managers. This study provides a new model for the joint development of cultural heritage protection and tourism activities.

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Section: Digitalization Technologiesmentioning

confidence: 99%

Joint development of cultural heritage protection and tourism: the case of Mount Lushan cultural landscape heritage site

et al. 2021

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“…The study did not show the accuracy of the estimated volume; however, it illustrated changes of the landfill over a two-month period. Wan et al [41] estimated the sizes of stockpiles carried on barges using a traditional method (reshaping a stockpile to a trapezoidal shape and measuring the volume with a measurement tool like a tape), laser scanning, and aerial photogrammetry. In terms of time, aerial photogrammetry required an average of 20 min for data collection and processing, while traditional method and laser scanning required 120 min and 40 min to measure the same stockpile, respectively.…”

Section: Outdoor Aerial Stockpile Volume Estimationmentioning

confidence: 99%

Drone-Assisted Confined Space Inspection and Stockpile Volume Estimation

et al. 2021

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The accuracy of stockpile estimations is of immense criticality to process optimisation and overall financial decision making within manufacturing operations. Despite well-established correlations between inventory management and profitability, safe deployment of stockpile measurement and inspection activities remain challenging and labour-intensive. This is perhaps owing to a combination of size, shape irregularity as well as the health hazards of cement manufacturing raw materials and products. Through a combination of simulations and real-life assessment within a fully integrated cement plant, this study explores the potential of drones to safely enhance the accuracy of stockpile volume estimations. Different types of LiDAR sensors in combination with different flight trajectory options were fully assessed through simulation whilst mapping representative stockpiles placed in both open and fully confined areas. During the real-life assessment, a drone was equipped with GPS for localisation, in addition to a 1D LiDAR and a barometer for stockpile height estimation. The usefulness of the proposed approach was established based on mapping of a pile with unknown volume in an open area, as well as a pile with known volume within a semi-confined area. Visual inspection of the generated stockpile surface showed strong correlations with the actual pile within the open area, and the volume of the pile in the semi-confined area was accurately measured. Finally, a comparative analysis of cost and complexity of the proposed solution to several existing initiatives revealed its proficiency as a low-cost robotic system within confined spaces whereby visibility, air quality, humidity, and high temperature are unfavourable.

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“…The application of UAS together with terrestrial laser scanning (TLS) enables support for forensic engineering where surveys must be executed in a short time while collecting the greatest possible amount of information with high accuracy [10]. He et al [11] estimated the stockpile volumes carried on barges using UAS without ground control points. Combined laser scanned and fixed-wing UAS point clouds were used for flood volume and area estimation [12].…”

Section: Introductionmentioning

confidence: 99%

Application of UAV in Topographic Modelling and Structural Geological Mapping of Quarries and Their Surroundings—Delineation of Fault-Bordered Raw Material Reserves

Török

Bögöly

Somogyi

et al. 2020

Sensors

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A 3D surface model of an active limestone quarry and a vegetation-covered plateau was created using unmanned aerial vehicle (UAV) technique in combination with terrestrial laser scanning (TLS). The aim of the research was to identify major fault zones that dissect the inaccessible quarry faces and to prepare a model that shows the location of these fault zones at the entire study area. An additional purpose was to calculate reserves of the four identified lithological units. It was only possible to measure faults at the lowermost two meters of the quarry faces. At the upper parts of the quarry and on the vegetation-covered plateau where no field geological information was available, remote sensing was used. Former logs of core drillings were obtained for the modelling of the spatial distribution of four lithological units representing cover beds and various quality of limestone reserves. With the comparison of core data, field measurements and remote sensing, it was possible to depict major faults. Waste material volumes and limestone reserves were calculated for five blocks that are surrounded by these faults. The paper demonstrates that, with remote sensing and with localised control field measurements, it is possible: (a) to provide all geometric data of faults and (b) to create a 3D model with fault planes even at no exposure or at hardly accessible areas. The surface model with detected faults serves as a basis for calculating geological reserves.

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Ground Control Point-Free Unmanned Aerial Vehicle-Based Photogrammetry for Volume Estimation of Stockpiles Carried on Barges

Cited by 28 publications

References 22 publications

Joint development of cultural heritage protection and tourism: the case of Mount Lushan cultural landscape heritage site

Joint development of cultural heritage protection and tourism: the case of Mount Lushan cultural landscape heritage site

Drone-Assisted Confined Space Inspection and Stockpile Volume Estimation

Application of UAV in Topographic Modelling and Structural Geological Mapping of Quarries and Their Surroundings—Delineation of Fault-Bordered Raw Material Reserves

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